Skip to main navigation
Skip to search
Skip to main content
University of Haifa Home
Update your profile
Home
Researchers
Research units
Research output
Search by expertise, name or affiliation
Sideways dynamics of ferroelectric domain walls
L. Bakaleinikov,
A. Gordon
Department of Mathematics, Physics and Computer Science (Oranim Campus)
Research output
:
Contribution to journal
›
Article
›
peer-review
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Sideways dynamics of ferroelectric domain walls'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Domain Walls
100%
Ferroelectric Domain Walls
100%
Second-order Phase Transition
28%
Domain Wall Motion
28%
Barium Titanate
28%
Inertia
14%
Suggested Model
14%
Finite-size Effects
14%
Stress Wave
14%
Induced Motion
14%
Phase Transition Temperature
14%
Domain Wall Mobility
14%
Threshold Field
14%
Triglycine Sulfate
14%
Sample Thickness
14%
Molybdate
14%
Rochelle Salt
14%
Elastic Effect
14%
Gadolinium Molybdate
14%
Electrostrictive Effect
14%
Ferromagnet
14%
Stress Wave Propagation
14%
Magnetic-field-induced
14%
Pb5Ge3O11
14%
Spontaneous Polarization
14%
Terbium
14%
Piezoelectric Effect
14%
Physics
Domain Wall
100%
Ferroelectric Material
100%
Stress Wave
16%
Barium Titanate
16%
Magnetic Field
8%
Wave Propagation
8%
Gadolinium
8%
Piezoelectricity
8%
Terbium
8%
Material Science
Ferroelectric Material
100%
Domain Wall
100%
Barium Titanate
16%
Molybdate
16%
Piezoelectricity
8%
Terbium
8%
Gadolinium
8%
Engineering
Domain Wall
100%
Order Phase Transition
16%
Molybdate
16%
Stress Wave
16%
Barium Titanate
16%
Magnetic Field
8%
Good Agreement
8%
Growth Temperature
8%
Characteristic Feature
8%
Size Effect
8%
Ferromagnet
8%
Spontaneous Polarization
8%
Rochelle Salt
8%
Piezoelectric Effect
8%
Applied Field
8%
Phase Transition Temperature
8%
Chemical Engineering
Barium Titanate
100%
Terbium
50%
Growth Temperature
50%
Gadolinium
50%